#ifndef GDT_H #define GDT_H #include #define GDT_NB_ENTRIES 3 #define GDT_SIZE (GDT_NB_ENTRIES * sizeof(struct gdt_entry)) #define KERNEL_CS_INDEX 1 #define KERNEL_DS_INDEX 2 #define KERNEL_CS_SEGMENT_SELECTOR {0, 0, KERNEL_CS_INDEX} #define KERNEL_DS_SEGMENT_SELECTOR {0, 0, KERNEL_DS_INDEX} struct gdt_entry { uint16_t limit_1 : 16; // 16 lsbs of the segment limit uint16_t base_1 : 16; // 16 lsbs of the segment base address uint8_t base_2 : 8; // 8 next bits of the segment base address /* Access Byte */ uint8_t accessed : 1; // set to 0, is set to 1 by CPU when segment is // accessed uint8_t rw : 1; // read/write bit, 1 to grant read acces on code // segments or write access on data segments uint8_t dc : 1; // Direction/Conforming bit uint8_t ex : 1; // Executable bit uint8_t desc_type : 1; // Descriptor type: 1 for data or code segmentm // 0 for system segments (like TSS) uint8_t desc_priv : 2; // Descriptor privilege uint8_t present : 1; // Always set to 1 uint8_t limit_2 : 4; // 4 msbs of the segment limit /* Flags */ uint8_t available : 1; // Available for use by system software uint8_t l : 1; // 64-bit code segment uint8_t db : 1; // size, 0 for 16 bits, 1 for 32 bits uint8_t granularity : 1; // limit unit, 0 for bytes, 1 for 4KiB (1 page) uint8_t base_3 : 8; // 8 msbs of the segment base } __attribute__ ((packed)); struct gdt { struct gdt_entry entries[GDT_NB_ENTRIES]; }; struct gdt_r { uint16_t limit; // total size of the GDT - 1 in bytes uint32_t addr; // base address of the DGT } __attribute__ ((packed)); struct segment_selector { uint8_t rpl : 2; // request privilege level uint8_t table_indicator : 1; // 0 for GDT, 1 for LDT uint16_t index : 13; // index of the entry in the table } __attribute__ ((packed)); void init_gdt(void); #endif /* !GDT_H */